CN103836322A - Quantitative plunger oil supply and rotating shaft distribution rotating shaft distribution combined type lubricating oil distributor - Google Patents

Abstract

The invention relates to a quantitative plunger oil supply and rotating shaft distribution rotating shaft distribution combined type lubricating oil distributor. The distributor comprises a quantitative oil storage barrel A capable of supplying oil quantitatively, a plunger pump B, a gearbox C, a gear chamber D and a rotor distribution rotor distribution combination valve E, and further comprises a rotating shaft distribution rotating shaft distribution combination valve, a main distribution rotating shaft and an auxiliary distribution rotating shaft. The distributor is used for multi-point lubrication of industry and mining machines, various engineering machines and various vehicles. The distributor is of a fully mechanical structure, integrates oil supply, oil pumping and oil distribution, occupies little space and is wide in application range, and a number of oil distribution points are available.

Description

The rotating shaft of quantitative plunger fuel feeding distributes the box-like oil header of rotating shaft assign group

Technical field

The present invention relates to a kind of quantitatively feeding distributor, be particularly applied to lathe multi point lubricating, the bearing lubrication of belt conveying roller, industrial and mineral machinery multi point lubricating, various engineering machinery multi point lubricatings, the distributor of various vehicle multi point lubricatings.And preparation method thereof.

Background technique

Machine tool, belt conveying roller bearing, industrial and mineral machinery, engineering machinery vehicle, a lot of lubricating point bearing sleeves, connecting pin all can not totally-enclosedly lubricate, and all exposedly can not get outside good lubricatedly, and what have is all working under rugged environment very much.Cause the quick-wearing of crossing of parts, and the shortening in maintenance of equipment cycle, work delays progress.

Multi point lubricating adopts hand grease gun more at present, pedal oiling machine, and Pneumatic oiling machine, electric oiling machine, multi point lubricating distributes employing, stepwise type distributor, gradual distributor.

Hand grease gun, pedal oiling machine, Pneumatic oiling machine, wastes butter when filling butter, and when multiple spot oiling, labor intensive increases working time.Electric oiling machine complex structure fault is many, and requires strict with oil.Stepwise type distributor, gradual distributor requires strict with oil, and some fuel delivery is limited, and the fuel feeding that will circulate, and other points just can not fuel feeding in the time that a certain point breaks down.

Summary of the invention

The object of this invention is to provide the machine that a kind of simple and practical reliable lubricant oil auto-supply distributes, save oil plant, reduce hand labor intensity.

Object of the present invention extends the working life of lubricating parts to such an extent as to saves parts material, increases work efficiency.Reduce maintenance cost.

Quantitative plunger fuel feeding rotating shaft of the present invention distributes the box-like oil header of rotating shaft assign group (hereinafter to be referred as distributor) (Fig. 1).By quantitative gasoline tank A, plunger pump B, gear-box C, gear chamber D, rotor distribution rotor is distributed combination brake switch and proporting E composition.

Described quantitative gasoline tank A, bucket is rolled into by intensity stainless steel sheet, and there is the oilhole that leads to plunger pump bucket bottom side, and bung is formed by 5 millimeters thick steel plate puncheds, in bucket, there is trapezoid thread screw, screw rod inserts screw rod middle part from bung has spring pedestal, screw rod, bung, spring pedestal, centre is provided with Spring capable of diameter varying, and platen is installed on screw rod simultaneously, and rubber cup is installed on platen.

Described plunger pump B, by plunger pump crankcase, plunger cavity, plunger cavity lid plunger, bent axle, connecting rod, composition, plunger pump crankcase, plunger cavity, plunger cavity is stamped cast aluminium and processes, plunger, bent axle, connecting rod, processes with forged steel, and Crankshaft turns two ends two dish ball bearings are installed, bent axle one end is provided with worm gear, crankshaft gear.

Described gear-box C, by gear-box, belt pulley, power input shaft, driving gear, driven gear, driven gear worm shaft, bent axle worm gear, crankshaft gear, gear on worm, worm screw, worm gear, worm-wheel shaft, composition.Gear-box, processes with cast aluminium.Belt pulley, power input shaft, driving gear, driven gear, driven gear worm screw, crankshaft gear, worm screw, gear worm, turbine shaft, processes with No. 45 steel.Worm gear, bent axle worm gear, processes with bronze.

Described gear chamber D, by secondary counter gear, idle pulley, idle pulley seat, secondary distribution shaft, main distribution shaft, indexing mechanism composition.Indexing mechanism is by secondary counter gear pin, guide plate, rocker, ratchet, ratchet, ratchet card, return spring, buffing pad composition.Secondary counter gear, idle pulley, idle pulley seat, secondary distribution shaft, main distribution shaft is processed by No. 45 steel.Indexing mechanism forms with No. 45 steel plate puncheds.

Described rotor distribution rotor is distributed combination brake switch and proporting E, by secondary distributing valve, and main distributing valve, secondary distribution shaft, main distribution shaft composition.Secondary distributing valve, main distributing valve processes with cast aluminium.Secondary distribution shaft, main distribution shaft is gathered around No. 5 steel and is processed.

Feature of the present invention is that fabricating cost is cheap, uses material common, and processing technology is simple, is all mechanical structure, and usability is reliable.Weight is lightly nimble, and using scope is wide, and using area scope is wide.

Feature of the present invention is to use oil plant scope wide, and lubricant oil is rare to machine oil, thick to lipid oil product.All can use the present invention.

Feature of the present invention is can be according to using area condition, the oil plant scope of use and be made into series product.

Described series product divide according to oil pressure: can divide low pressure distributor, middle pressure distributor, high pressure distributor.Low pressure distributor valve body, the pump housing, casing can cast aluminium processing.Middle pressure distributor valve body, the pump housing, casing can cast copper processing.High pressure distributor valve body, the pump housing, casing can cast iron process.Gear shaft rotating shaft worm screw is No. 45 steel processing of same material.Bronze processing for worm gear.

Described series product are counted point according to lubricated: can divide 4 fuel-displaced cellular types (Figure 21), 6 fuel-displaced cellular types (Figure 22), 8 fuel-displaced cellular types (Figure 23), 16 fuel-displaced cellular types (Figure 20), 24 fuel-displaced cellular types (Figure 19), 32 fuel-displaced cellular types (Figure 24), 36 fuel-displaced cellular types (Figure 25), 48 oil outlets (Figure 26), 64 fuel-displaced cellular types (Figure 27).

Described series product divide by using method: manual distributor, automatic distributor, full-automatic distributor, electric oiling machine.

Described series product manual distributor: its structure is the gasoline tank A in (Fig. 1), plunger pump B, gear-box C removes.Distribute in rotating shaft a wind is installed in pair.Assist and have Pneumatic oiling device

Described series product automatic distributor; It is exactly invention itself.

The full-automatic distributor of described series product: divide again Pneumatic full-automatic distributor, the full-automatic distributor of electrodynamic type.

Described power input of the present invention can be direct current motor, AC motor, or engine belt pulley.In the time that power of the present invention is input as engine belt pulley, on gear-box C power input shaft, increase an one-way clutch pawl just.

Described series product; Pneumatic full-automatic distributor (when single distributed power is motor), its structure is that plunger pump B, removes the gasoline tank A in (Fig. 1).Auxiliary have Pneumatic oiling device, motor, air valve switch, power switch.

,, described series product; (when single distributed power is engine belt pulley, its structure is that plunger pump B, removes the gasoline tank A in (Fig. 1) to Pneumatic full-automatic distributor.Auxiliary have Pneumatic oiling device, air valve switch, pneumatic pull rod.

The full-automatic distributor of described electrodynamic type: its structure is at (Fig. 1) gasoline tank A, a power switch with button is installed in store oil bung screw hole upper end.

Described its structure of electrodynamic type Lubricators; For the gear chamber D in (Fig. 1), rotor distribution rotor distributes combination brake switch and proporting E to remove.An auxiliary motor, goes out Oil gun head.

Another feature of the present invention can be selected series product according to Environmental Conditions place condition.

Accompanying drawing explanation

Fig. 1 is plan view of the present invention

Fig. 2 is gasoline tank A of the present invention, cuts open formula figure, structural drawing, and Fig. 3 is the fundamental diagram of gasoline tank A.

Fig. 4 is plunger pump B of the present invention, axially sectional view, and Fig. 5 is that the master of plunger pump B of the present invention looks sectional view.

Fig. 6 is gear-box C of the present invention, master look sectional view, Fig. 7 is gear-box C layout figure of the present invention.

Fig. 8 is gear transmission transmission diagram of the present invention.

Fig. 9 is the main distribution rotating shaft of gear chamber D of the present invention, the secondary structural drawing that distributes shaft gear, idle pulley, idle pulley seat, the gear one side structure schematic diagram that Figure 10 is gear chamber D of the present invention.

Figure 11 is gear chamber D of the present invention, indexing mechanism structural drawing, and Figure 12 is indexing mechanism construction profile of the present invention.

Figure 13, Figure 14 are that rotor distribution rotor of the present invention is distributed combination brake switch and proporting E, oil duct project organization distribution map.

Figure 15, Figure 16 are that rotor distribution rotor of the present invention is distributed combination brake switch and proporting E, pair distribute valve body oil duct distributed architecture figure and the secondary rotating shaft annular oil groove that distributes, laterally tank structure distribution map.

Figure 17, Figure 18 are that rotor distribution rotor of the present invention is distributed combination brake switch and proporting E, main distributing valve body oil channel structure distribution map, main distribution rotating shaft annular oil groove, laterally tank structure distribution map.

Figure 19 is that the fuel-displaced cellular type of the present invention 24, Figure 20 are that the fuel-displaced cellular type of the present invention 16, Figure 21 are that the fuel-displaced cellular type of the present invention 4, Figure 22 are that the fuel-displaced cellular type of the present invention 6, Figure 23 are that the fuel-displaced cellular type of the present invention 8, Figure 24 are that the fuel-displaced cellular type of the present invention 32, Figure 25 are that the fuel-displaced cellular type of the present invention 36, Figure 26 are that the fuel-displaced cellular type of the present invention 48, Figure 27 are that the fuel-displaced cellular type series product of the present invention 64 rotor distribution rotor is distributed combination brake switch and proporting oil outlet distributed architecture figure.

Figure 28 is the box-like butter distributor of quantitative plunger fuel feeding rotor distribution rotor assign group of the present invention oil circuit work schematic diagram.

Figure 29, Figure 30 are gear chamber D indexing mechanism fundamental diagram of the present invention.

Figure 31, Figure 32 are that series product manual dispenser rotor distribution rotor of the present invention is distributed combination valve arrangement schematic diagram.

Figure 33 is the box-like butter distributor of quantitative plunger fuel feeding rotor distribution rotor assign group of the present invention; power while having engine belt pulley to provide; gear-box power input shaft is the clutch configuration figure that protection the present invention increases, and Figure 34, Figure 35 are overrunning clutch gear mechanism composition of the present invention.

Figure 36, Figure 37 are that quantitative plunger fuel feeding rotating shaft of the present invention distributes the box-like butter distributor of rotating shaft assign group, power the power switch schematic diagram of installation is provided at gasoline tank while being provided by motor.

Figure 38, Figure 39 are the box-like butter distributor of quantitative plunger fuel feeding rotor distribution rotor assign group of the present invention, power while having engine belt pulley to provide, clutch work schematic diagram.

embodiment

Claimant is according to the characteristic of spring, and the spring of compression has reaction force.And design at gasoline tank A, as shown in Figure 2, store oil bung 7, adjusting screw rod 2, spring pedestal 5, between a Spring capable of diameter varying 6 is installed.

In the plunger cavity that is designed with rational oilhole, to-and-fro motion can compressed oil motion and pump oil according to plunger for claimant.And bent axle can produce to-and-fro motion, when single plunger Crankshaft motion one week, plunger only has half the time pump oil, just can pump oil in the time of Crankshaft motion one week when double-plunger.And design plunger pump B, and as shown in Figure 4, Figure 5, bent axle 13, connecting rod 14, plunger 9, crankcase 16, plunger cavity 8, plunger pump cover 19.

Claimant is according to gear transmission, and worm and worm gear machinery, reduces rotating speed and increase the characteristic of moment of torsion, and design gear-box C, as shown in Fig. 6, Fig. 5, gear-box 33, belt pulley, 25, power input shaft 27, driving gear 26, passive tooth, 23, driven gear worm screw, 24, bent axle snail, 22, crank teeth, 32, worm tooth, 31, snail, 28 worm gear 29 worm-wheel shafts 30.Gear chamber D, as shown in Figure 9, Figure 10, the secondary rotating shaft tooth that distributes, 34, the secondary rotating shaft tooth that distributes, 37, secondary rotating shaft tooth, 38, idle pulley 35, the idle pulley seat 36 of distributing.

Claimant rotates in valve body according to rotating shaft, between rotating shaft and valve body, rotating shaft does not change at axial direction, rotating shaft is in the feature of radial direction and the variation of valve body generation angle, and in rotating shaft, design the annular oil groove that a horizontal oil groove and it communicate, on valve body, design the oil-feed oil duct corresponding with oil groove and fuel-displaced oil duct, the fuel-displaced oil duct on main distributing valve body distributes the oil-feed oil duct on valve body to communicate with secondary.Oil oil duct communicates, laterally oil groove meeting and conplane fuel-displaced oil duct communicate successively, from but make oil plant deliver to respectively each lubricating point, according to above feature, combination gear, the feature of indexing mechanism, rotating shaft valves that can be above with 22, are combined into a rotating shaft that has more oilhole and distribute rotating shaft to distribute combination brake switch and proporting.Distribute combination brake switch and proporting E and design rotor distribution rotor, as shown in Figure 13, Figure 14, main distribution rotating shaft 39, secondary distribution rotating shaft 40, main distributing valve body 54, secondary valve body 55, the annular oil groove 49 of distributing, laterally oil groove 50, the fuel-displaced oil duct 51 of main distributing valve, secondary distributing valve oil-feed oil duct 56, the fuel-displaced oil duct 57 of secondary distributing valve, as shown in Figure 17, Figure 18, main distributing valve oil-feed oil duct 58.

Oil circuit working principle schematic diagram of the present invention: as shown in figure 28, rotation adjusting screw rod 2, make the active force on screw rod promote pressure disk 3, compress butter 4, the reaction force of butter promotes pressure disk 3, on screw rod 2, move, spring pedestal 5 on screw rod, with store oil bung 7, Compress Spring 6, distortion, the reaction force of spring 6 promotes base 5 adjusting screw rod 2 pressure disk 3 butter 4, get into the plunger pump oil inlet hole 12 communicating with gasoline tank bottom oilhole, and enter in plunger cavity 11, bent axle 13, rotarily drive plunger 9, reciprocal plunger 9 is the butter in plunger cavity, be pressed into main distribution rotating shaft valve on oil-feed oil duct 58, the oil pipe 64 communicating, inside make butter enter the oil-feed oil duct 58 of main distributing valve, butter in main distributing valve oil-feed oil duct, through the annular oil groove 49 in main distribution rotating shaft, laterally oil groove 50, enter the fuel-displaced oil duct 51 of main distributing valve, the fuel-displaced oil duct of main distributing valve, interior butter, pass through the fuel-displaced oil duct with main distributing valve, the secondary distributing valve oil-feed oil duct 56 communicating, enter the annular oil groove 49 of secondary distribution shaft, laterally oil groove 50, finally enter the fuel-displaced oil duct 57 of secondary distributing valve, butter in the fuel-displaced oil duct of secondary distributing valve, through fuel-displaced oilhole, and the pipeline communicating with lubricating point enters lubricating point.

The every rotation of auxiliary spindle one week, indexing mechanism can drive main shaft to rotate fast an angle, make the horizontal oil groove 50 on main shaft, the fuel-displaced oil duct 51 of the next one on corresponding main distributing valve, has so several fuel-displaced oil duct auxiliary spindles just to rotate and just butter can be assigned on all lubricating points in several weeks on main shaft valve.

Gear worm worm gear pair rotating shaft main shaft auxiliary spindle gear idle pulley indexing mechanism working principle schematic diagram of the present invention: as shown in Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11, Figure 12, Figure 29, Figure 30, belt pulley, 25 provide power by motor or engine fan pulley, by power process power input shaft, 27, driving gear 26, driven gear 23, driven gear worm shaft 24, pass to bent axle worm gear 22, thereby band dynamic crankshaft 13, turning crankshaft drives just energy pump oil of plunger reciprocal plunger

Bent axle 13, power is passed through to crankshaft gear 32, gear on worm 31, worm shaft 28, worm gear 29, worm-wheel shaft 30, passes to the secondary shaft gear 34 that distributes, the secondary shaft gear 34 that distributes, power is passed through to idle pulley 35, pass to other all pair and distribute shaft gear 38,37, distribute rotating shaft to rotatablely move thereby realize whole pairs.Thereby the oil outlet on secondary distribution rotating shaft valve sends butter to each lubricating point by pipeline and realizes distribution transmission butter.

The working principle of indexing mechanism: as shown in Figure 29, Figure 30, the secondary shaft gear 38 that distributes, on gear pin 48, the inverse time rotates in the time that gear pin turns to F position, stir guide plate 47, cotter way on up time rotating guide is stirred the pin 42 on the ratchet rocker on main shaft, and pin drives rocker 43, and the inverse time rotates, the angle of rotating, determine according to the fuel-displaced oil duct angle on main distributing valve body, the angle N that rocker rotates, more bigger than the angle of fuel-displaced oil duct.Bigger object is that rocker ratchet 44 can be entered in ratchet bayonet socket reliably, in the time that gear pin 48 turns to H position, gear pin 48 is deviate from intermittently guide plate 47, intermittently guide plate is at spring 46, effect under reverse fast several angle, intermittently the cotter way on guide plate is stirred the pin 42 on rocker, make the ratchet 44 on the quick clockwise rocker of pin plate, ratchet is stirred the ratchet quick rotation on main distribution main shaft, horizontal oil groove on main distribution shaft is turned an angle with the next fuel-displaced oil duct of correspondence, to successively lubricant oil be delivered to each secondary distributing valve by the main distribution rotating shaft that circulates of this principle, secondary distribution rotating shaft is being delivered to each lubricating point lubricant oil successively.The square toes how many main distribution rotating shafts is designed to how many limits shape by the fuel-displaced oil duct of main distribution rotating shaft.Make positioning ejection reed on idle pulley seat and the plane engagement of square toes, just can guarantee the corresponding position of fuel-displaced oil on position and the main distributing valve of the horizontal oil groove in main distribution rotating shaft.

[0053] oil mass adjustment of oil pressure principle of the present invention; As shown in Figure 4, Figure 5, on the pump cover on the main plug pump of biserial, be designed with the fuel-displaced hollow spiral shell head 52 on pressure regulator valve 17 each secondary distributing valves, internal diameter is designed to three sizes., internal diameter less oil pump capacity in hole is just less, contrary, internal diameter larger oil pump capacity in hole is just larger, and pressure regulator valve is manual pressure regulating valve.Play two effects, lubricating oil viscosity will be heightened pressure regulator valve pressure greatly, to guarantee fuel-displaced oil mass.Lubricating oil viscosity is little, oil pressure will be turned down in case too much fuel-displaced, and save oil plant.And pressure regulator valve can draining not being damaged with protection equipment Pipe-Line in the time that indivedual oil circuits occur to stop up.As shown in Figure 2 and Figure 3 the height h of Spring capable of diameter varying compression be multiplied by gasoline tank basal area just equal the oil mass of confession

Clutch working principle of the present invention; As shown in Figure 33, Figure 34, Figure 35, Figure 38, Figure 39, an engaging claw 62 is installed on power input shaft 27 in the time that driving handle 66 moves, just can make in conjunction with grab 62 with driving gear 26 combinations.Just separate on the contrary engaging claw 62 and close driving gear 26.

The working principle of manual distributor of the present invention is as shown in Figure 31, Figure 32, when supplementary equipment pneumatic type oil gun 61. or electrodynamic type Lubricators, fuel feeding oil pipe 60, be connected with main distributing valve body oil-feed oil duct, manually rocking-turn crank 59, auxiliary spindle is rotated, on demand oil mass number and the speed of rotation crank, then each rotating shaft meeting according to of the present invention point of oily principle distribution of lubrication oil to each lubricating point.

The present invention is the working principle of full automaticity distributor; ; When supplementary equipment is pneumatic type Lubricators fuel feeding, when motor drives distributor.As long as just can by filling a power switch on air valve simultaneously.In the time opening jettron, just turn on the power switch simultaneously.In the time closing jettron, simultaneously with regard to powered-down switch.

As shown in Figure 38, Figure 39, in the time that supplementary equipment is pneumatic type Lubricators fuel feeding engine fan pulley drive distributor, as long as on the handle 66 of gear-box C, connect a pneumatic pull rod just can, in the time opening jettron, simultaneously pneumatic pull rod makes clutch joint with regard to driving handle 66.In the time closing jettron, pneumatic pull rod will return cut-off clutch.

As shown in Figure 36, Figure 37, in the time that distributor is motor power, as long as being installed on store oil bung 7 screw holes, an electric switch 10 just can.Rotate screw rod 2 electric switch buttons 63 with regard to opening power, motor rotary work, when screw rod is fallen with regard to powered-down switch 10..Motor quits work.

In the time that distributor provides power for engine fan pulley.Only a solenoid valve need to be installed on the handle of gear-box C 66 just can.Rotate screw rod 2 electric switch buttons 63 with regard to opening power, make solenoid valve driving handle that clutch is engaged, when screw rod is fallen with regard to powered-down switch 10, solenoid valve quits work and makes clutch return cut-off clutch.

The present invention is the working principle of electrodynamic type Lubricators; Provide the working principle of power identical as full-automatic distributor for motor.Just distribute rotating shaft to distribute combination brake switch and proporting E and gear chamber D to remove rotating shaft, just can and increase in addition a rifle head.

Oil circuit of the present invention, gear, transmission system is fully closed.The pump housing, valve body, gear housing adopts silicagel pad sealing.Connect and combine with bolt.Plunger, rotating shaft and gear chamber separate oil circuit with O-ring seals and can not alter mutually.Distributing rotating shaft to be located by boss can axial float.

The present invention when bent axle 13 rotating speeds pump oil effect in the time that 40 turn best, therefore bent axle 13 design speeds can not exceed per minute 60 and turn for the highest, speed of crankshaft and the secondary rotating ratio that distributes rotating shaft 40 are multiplied by 3 or 5 by the fuel-displaced hole count on secondary distributing valve, that is to say whenever pair distribution rotating shaft turns over an oil outlet bent axle and turn 3 to 5 circles.The rotating speed of belt pulley 25 is the highest can not be exceeded 3000 and turn, and because power of the present invention can drive with motor and engine fan pulley, therefore the rotating ratio of belt pulley 25 and bent axle 13 is by service condition and determine.The rotating speed of final bent axle can not exceed per minute 60 and transfer standard in a word.

Gear-box of the present invention, gear chamber, crankcase is with adopting 15W40C oil lubricating.

Use between short 5 minutes to 15 minutes of operating time of the present invention and just can complete a circulation, even in not out-of-work situation, all can use.

Because gear mechanism design speed of the present invention is low.So pump oil distribution effects of the present invention will be saved oil plant than current existing equipment pump oil distribution effects, oiling is reliable, durable in use.Of the present invention the cost of material is low, and processing technique is simple, and series product Component all can be general.

Above-described embodiment is only the description that the preferred embodiment of the present invention is carried out; not to circumscription of the present invention; design under the prerequisite of spirit not departing from the present invention; various distortion and improvement that those of ordinary skill in the art makes technological scheme of the present invention, all should fall in the definite protection domain of the claims in the present invention book.

Claims (5)

1. one kind for the quantitative fuel feeding of multi point lubricating collection, pump oil, the oil header that distributes oil to be integrated, it includes quantitative fuel feeding Oil container A, oil pumping device B, actuating unit C, distribution of lubrication oil transmission device D, lubricant distributor F, it is characterized in that: quantitative oil supply device bottom is assembled together with a side of oil pumping device, and the opposite side of oil pumping device and actuating unit are installed together, distribution of lubrication oil transmission device is installed on a side of lubricant distributor, the adjacent side that distribution of lubrication oil transmission device is installed on one side of oil pumping device and actuating unit assemblying body and lubricant distributor is assembled together, quantitatively fuel feeding Oil container A oil pumping device B actuating unit C distribution of lubrication oil transmission device D lubricant distributor F, these several devices are combination separately, can be combined into various kinds of lubricating oil equipment.

2. a kind of oil header according to claim 1, quantitatively fuel feeding Oil container controlling device includes store oil bung 7, adjustable lever 2, spring pedestal 5, spring 6, it is characterized in that: on adjustable lever, adjustable lever one end is processed with and accounts for the long screw thread over half of full bar, on the other end, there is adjusting head, adjustable lever inserts from store oil bung, store oil bung is positioned at adjusting head one end on adjustable lever, a spring pedestal is installed in a position near screw thread one end on adjustable lever, a spring is installed between store oil bung and spring pedestal on adjustable lever, adjustable lever can rotate also and can move axially in store oil bung hole, adjustable lever can rotate but can not move axially in spring pedestal hole.

3. a kind of oil header according to claim 1, oil pumping device includes bent axle, connecting rod, plunger, crankcase, oil pumping chamber body, it is characterized in that: bent axle has two crank throws, and the angle of two crank throws becomes 180 degree, have two plunger pump oil pockets, oil pumping chamber oil inlet hole is in a plunger stroke side above plug bottom, and oil pumping chamber top plunger stroke has unidirectional outlet valve topmost.

4. a kind of oil header according to claim 1, distribution of lubrication oil transmission device includes the pair of N formed objects and distributes shaft gear, a linking mechanism, an indexing mechanism, it is characterized in that: linking mechanism can make the secondary shaft gear that distributes rotate the interlock of all secondary distribution shaft gears together simultaneously, indexing mechanism is arranged in main distribution rotating shaft and links with one of them secondary shaft gear that distributes, when pair is distributed the every rotation of shaft gear one week, intermittently linking mechanism drives an angle of main distribution rotating shaft rotation to make main distribution rotating shaft turn to next fuel-displaced oil duct from previous fuel-displaced oil duct, all oil ducts that circulated are successively fuel-displaced.

5. a kind of oil header according to claim 1, lubricant distributor includes main distribution rotating shaft, secondary distribution rotating shaft, main distributing valve body, the secondary valve body that distributes, annular oil groove and laterally oil groove, oil-feed oil duct on valve body and fuel-displaced oil duct, it is characterized in that: the annular oil groove in main distribution rotating shaft and secondary distribution rotating shaft and laterally oil groove communicate, oil-feed oil duct on radial direction annular oil groove and the valve body of rotating shaft annular oil groove and oil-feed oil duct in rotating shaft rotary course communicate all the time, the horizontal oil groove of axial direction in rotating shaft communicates with each fuel-displaced oil duct successively in rotating shaft rotation process, main distributing valve body and the secondary assemblying body that distributes valve body can be integrated processing or parts processing, on valve body, be processed with a main distribution rotary shaft hole, N the secondary rotary shaft hole that distributes, main distribution rotary shaft hole and all secondary rotary shaft holes that distributes all only have an oil-feed oil duct and N fuel-displaced oil duct, the oil-feed oil duct oil inlet hole of each oil outlet of fuel-displaced oil duct on main distribution rotary shaft hole only and on a secondary distribution rotary shaft hole communicates, there are several secondary rotary shaft holes that distribute just to have several fuel-displaced oil duct oil outlets at main distribution rotary shaft hole, main distribution rotating shaft and secondary distribution rotating shaft can only be rotated and can not move axially in distribution valve body.

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